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AU2013201638B2 - Figure display device, figure display method and storage medium storing a figure display program - Google Patents
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AU2013201638B2 - Figure display device, figure display method and storage medium storing a figure display program - Google Patents

Figure display device, figure display method and storage medium storing a figure display program Download PDF

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AU2013201638B2
AU2013201638B2 AU2013201638A AU2013201638A AU2013201638B2 AU 2013201638 B2 AU2013201638 B2 AU 2013201638B2 AU 2013201638 A AU2013201638 A AU 2013201638A AU 2013201638 A AU2013201638 A AU 2013201638A AU 2013201638 B2 AU2013201638 B2 AU 2013201638B2
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equation
display
ratio
displayed
inputted
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AU2013201638A1 (en
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Tomoaki Satoh
Hironori Yoshikawa
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Casio Computer Co Ltd
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Casio Computer Co Ltd
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    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T11/00Two-dimensional [2D] image generation
    • G06T11/20Drawing from basic elements
    • G06T11/26Drawing of charts or graphs
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F15/00Digital computers in general; Data processing equipment in general
    • G06F15/02Digital computers in general; Data processing equipment in general manually operated with input through keyboard and computation using a built-in program, e.g. pocket calculators
    • G06F15/0225User interface arrangements, e.g. keyboard, display; Interfaces to other computer systems
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F17/00Digital computing or data processing equipment or methods, specially adapted for specific functions
    • G06F17/10Complex mathematical operations
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T11/00Two-dimensional [2D] image generation
    • G06T11/60Creating or editing images; Combining images with text
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B19/00Teaching not covered by other main groups of this subclass
    • G09B19/02Counting; Calculating
    • G09B19/025Counting; Calculating with electrically operated apparatus or devices

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Computing Systems (AREA)
  • Mathematical Physics (AREA)
  • Business, Economics & Management (AREA)
  • Data Mining & Analysis (AREA)
  • Educational Administration (AREA)
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  • Algebra (AREA)
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  • Entrepreneurship & Innovation (AREA)
  • Mathematical Analysis (AREA)
  • Mathematical Optimization (AREA)
  • Human Computer Interaction (AREA)
  • Pure & Applied Mathematics (AREA)
  • Databases & Information Systems (AREA)
  • Software Systems (AREA)
  • Electrically Operated Instructional Devices (AREA)
  • User Interface Of Digital Computer (AREA)

Abstract

A figure display device, a figure display method and a storage medium having a figure display program are 5 described. According to one implementation, a figure display device includes a figure display section; an assumed equation input section; and a figure assumed portion discrimination display control section. The figure display section displays a figure. The assumed 10 equation input section is used to input an assumed equation of the figure according to user operation. The figure assumed portion discrimination display control section deforms a corresponding portion of the assumed equation in the figure to match a figure portion obtained 15 by the assumed equation, and illustrates a content represented by the assumed equation in the figure displayed with discrimination. 4169240_ (GHMatters) P92990.AU 19/03/13 UL CD %4 cw<N Cu C 0 ou 0m LL Ed5-4;;g C- wA 0U C- ~k rj"; 01W

Description

- 1 FIGURE DISPLAY DEVICE, FIGURE DISPLAY METHOD AND STORAGE MEDIUM STORING A FIGURE DISPLAY PROGRAM BACKGROUND OF THE INVENTION 5 1. Field of the Invention The present invention relates to a figure display device, a figure display method, and a storage medium storing a figure display program. 10 2. Description of the Related Art Conventionally, figure display devices which can display figures have been used for studying geometry. In one such figure display device, for example, when a user answers a proof problem of figures, a figure area to 15 display a figure and a text area to display text for proof input by the user is formed in a display region, and it is possible for the user to draw a desired auxiliary line in the figure area (for example, Japanese Patent Application Laid Open Publication No. 2009-009059) 20 As another figure display device there is a device which displays with discrimination line segments with the same length and corner portions with the same angle in the displayed figure (for example, Japanese Patent Application Laid-Open Publication No. 2004-294689) 25 However, according to the techniques of Japanese Patent Application Laid-Open Publications Nos. 2009-009059 and 2004 294689, the corresponding relationship between the displayed figure and the formula in the text input by the user is AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 2 difficult to understand. Therefore, the effect of learning becomes small. SUMMARY OF THE INVENTION 5 According to a first broad aspect of the present invention, there is provided a figure display device comprising: a display, and a processing unit adapted for: 10 displaying a figure on the display; inputting an equation regarding the figure according to a user operation; detecting a portion in the figure corresponding to the inputted equation; and 15 displaying with discrimination content in the figure represented by the inputted equation, wherein the inputted equation is a ratio equation of a portion in the figure; and the processing unit is adapted for: 20 detecting a portion in the figure corresponding to the ratio equation; and displaying content represented by the ratio equation in the detected corresponding portion in the figure. In one embodiment, the inputted equation is an equation 25 showing similar triangles and the processing unit is further configured to display content of the similar triangles represented by the inputted equation with discrimination in -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 -3 each triangle. In another embodiment, the processing unit is further configured to: judge whether a plurality of ratio equations are input 5 and whether there is a common term representing a portion of the figure in at least two ratio equations among the plurality of ratio equations; and organize a value of a ratio to update a display content when the processing unit judges that a plurality of ratio 10 equations are input and that there is a common term representing a portion of the figure in at least two ratio equations among the plurality of ratio equations. The processing unit may be further configured to: judge whether an identifier in the inputted equation is 15 defined in the displayed figure, and when the identifier is defined in the displayed figure, detect a portion of the displayed figure that corresponds to the identifier, and deform the shape of the figure to match the inputted equation. 20 The identifier may be a sign showing an angle or a side. In one example, the processing unit is further configured to: when the processing unit judges that the identifier in the inputted equation is defined in the displayed figure, 25 judge whether an order of a sign which is the identifier is reverse, and when the processing unit judges that the sign which is -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 - 4 the identifier is reverse, correct the order of the sign which is the identifier. In another example, the processing unit is further configured to: 5 when the processing unit judges that the order is reverse, display an error message that the order is reverse and a query message of whether to correct the order, and correct the order of the sign which is the identifier according to user operation requesting that the order be 10 corrected. In still another example, the processing unit is further configured to: when a corresponding portion of the equation does not exist in the figure, display an error message that the 15 corresponding portion of the equation does not exist in the figure, when the error message that the corresponding portion of the equation does not exist in the figure is displayed, set in the figure a portion of the displayed figure which 20 corresponds to the undefined identifier according to user operation, and deforming the set corresponding portion of the displayed figure to match the inputted equation. In an embodiment, the processing unit is further 25 configured to: when the processing unit judges that the identifier in the inputted is not defined in the displayed figure, set in -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 - 5 the figure a portion of the displayed figure which corresponds to the undefined identifier according to user operation; and deform the set portion of the displayed figure to match 5 the inputted equation. According to a second broad aspect of the present invention, there is provided a figure display method of a computer including a display with a figure display area and an text input area, the method including: 10 displaying a figure on the display; inputting an equation regarding the figure according to a user operation, wherein the inputted equation is a ratio equation of a portion in the figure; detecting a portion in the figure corresponding to the 15 inputted equation; displaying with discrimination content in the figure represented by the inputted equation; detecting a portion in the figure corresponding to the ratio equation; and 20 displaying content represented by the ratio equation in the detected corresponding portion in the figure. According to a third broad aspect of the present invention, there is provided a computer-readable storage medium having a program stored thereon for controlling a 25 computer including a display section and an input section, wherein the program controls the computer to: display a figure on the display; 0091QQ 1 {T- ot DOOOil ATT A TA- -- /l7/1 - 6 input an equation regarding the figure according to a user operation; detect a portion in the figure corresponding to the inputted equation, wherein the inputted equation is a ratio 5 equation of a portion in the figure; display with discrimination content in the figure represented by the inputted equation; detect a portion in the figure corresponding to the ratio equation; and 10 display content represented by the ratio equation in the detected corresponding portion in the figure. BRIEF DESCRIPTION OF THE DRAWINGS The present invention and the above-described features 15 thereof will become more fully understood from the following detailed description with the accompanying drawings and wherein; FIG. 1 is a block diagram showing a functional configuration of a display terminal; 20 FIG. 2 is a flowchart showing a flow of figure display processing; FIG. 3 is a flowchart showing a flow of corresponding figure portion error determining processing; FIG. 4A and FIG. 4B are diagrams showing contents 25 91QQ 1 {{1T-TAl en DOOO9 l ATT A TA- -- /l7/1 - 7 displayed on a display; FIG. 5A and FIG. 5B are diagrams showing contents displayed on the display; FIG. 6A and FIG. 6B are diagrams showing contents 5 displayed on the display; FIG. 7A and FIG. 7B are diagrams showing contents displayed on the display; FIG. 8A and FIG. 8B are diagrams showing contents displayed on the display; 10 FIG. 9A and FIG. 9B are diagrams showing contents displayed on the display; and FIG. 10 is a diagram showing contents displayed on the display. 15 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An example of an embodiment of the present invention is described in detail with reference to the attached drawings. The scope of the invention is not limited to the illustrated examples. 20 [Configuration] FIG. 1 is a block diagram showing a schematic configuration of a display terminal 1 of the present embodiment. 25 As shown in the diagram, the display terminal 1 of the present embodiment includes a display section 21, an input section 22, a storage medium reading section 23, a storage section 24, a CPU 25 and the like. AAQQ-Q 1 (T-TAlT n D -O-n ATT A TAT 91/AA/ 1 - 8 The display section 21 includes a display 210, and displays various pieces of information on the display 210 based on the display signal input from the CPU 25. The display 210 of the present embodiment is formed as one with a 5 touch panel 221, and is able to receive touching operation from the user. The input section 22 includes a key group 220 and the above described touch panel 221, and outputs a signal corresponding to the type of pressed key or the position of 10 the touch panel 221 to the CPU 25. The storage medium reading section 23 reads information from an external storage medium 23a such as a SD card, and stores information in the external storage medium 23a. The storage section 24 stores programs and various 15 pieces of data to execute various functions of the display terminal 1. The storage section 24 is also a memory which functions as a work area of the CPU 25. In the present embodiment, the storage section 24 stores a figure display program 240, an educational material database 241, etc. of 20 the present invention. The figure display program 240 is a program which allows the CPU 25 to execute a later described figure display processing (see FIG. 2). The educational material database 241 stores a plurality 25 of pieces of educational material data. The CPU 25 centrally controls each section of the display terminal 1. Specifically, the CPU 25 expands a system program and the program specified from the various AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 9 application programs stored in the storage section 24. In coordination with the expanded program, the CPU 25 executes various processing. 5 [Figure Display Processing] Next, the figure display processing executed by the display terminal 1 is described with reference to FIG. 2. FIG. 2 is a flowchart which describes an operation of the figure display processing. When an instruction to 10 execute the figure display processing is input through the input section 22 by the user, the figure display program 240 is read from the storage section 24 and expanded. As a result, the figure display processing is executed by the figure display program 240 in coordination with the CPU 25. 15 As shown in the diagram, in the figure display processing, the CPU 25 first judges whether the operation to specify the educational material regarding a figure problem of geometry is performed by the user (step Si). When it is judged that the operation to specify the 20 educational material regarding figures is performed in step S1 (step Sl; Yes), the CPU 25 forms a figure area 210a and a text area 210b on the display 210 and displays an educational material display window W in a nearer side than the above areas (see FIG. 4A). Then, the CPU 25 reads the educational 25 material specified above (hereinafter referred to as specified educational material) from the educational material database 241 to be displayed in the educational material display window W (step S2), and the processing advances to AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 10 step Si. When it is judged that the operation to specify the educational material regarding figures is not performed in step S1 (step Sl; No), the CPU 25 judges whether or not the 5 operation to draw a figure is performed by the user (step S3). When it is judged that the operation to draw the figure is performed by the user in step S3 (step S3; Yes), the CPU 25 displays the figure drawn according to user operation 10 (hereinafter referred to as user drawn figure) to solve the specified educational material in the figure area 210a (step S4). Then, the CPU 25 advances the processing to step S1. The user drawn figure includes signs of feature points in the figure such as an intersection point, vertex, center of 15 circle and the like, and the CPU 25 acknowledges the feature point closest to the position where the sign is described as the target of the sign. When it is judged that the operation to draw the figure is not performed by the user in step S3 (step S3; No), the 20 CPU 25 judges whether or not operation to input an assumed equation regarding a figure of the specified educational material (hereinafter referred to as educational material figure) is performed by the user (step Sl). When it is judged that the operation to input the 25 assumed equation is performed by the user in step Sl, (step Sli; Yes), the CPU 25 displays the assumed equation input according to the user operation discriminated with a predetermined color (here, red) in the text area 210b and AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 11 also detects the corresponding portion of the assumed equation in the user drawn figure (step S12). In step S12, the user may input an equation regarding a ratio of a portion (side, angle, etc.) of the figure (hereinafter referred to as 5 ratio equation) as the assumed equation. Next, the CPU 25 performs corresponding figure portion error determining processing (step S13). Specifically, as shown in FIG. 3, in the corresponding figure portion error determining processing, the CPU 25 10 judges whether or not there is a corresponding portion of the assumed equation in the user drawn figure, specifically, the CPU 25 judges whether or not the signs in the assumed equation are defined in the user drawn figure (step Ti), and when it is judged that there is a corresponding portion (the 15 signs are defined) (step Ti; Yes), the processing advances to a later described step T3. When it is judged that the corresponding portion of the assumed equation is not in the user drawn figure (the signs are not defined) in step Ti (step Ti; No), the CPU 25 20 displays an error message (hereinafter referred to as figure defining error message Mi, see FIG. 5A) notifying the above on the display 210 and forms the portion corresponding to the sign not defined in the user drawn figure according to the user operation (step T2). 25 Next, the CPU 25 judges whether or not the assumed equation for at least two angles in a congruent figure portion or a similar figure portion in the user drawn figure is input, and whether or not the order of the sign AAQQ-Q 1 (T-TAlTn D -O-n ATT A TAT 91 /A A/ 1 - 12 representing these angles is reversed in the assumed equation (step T3). When the assumed equation for the angles is not input or the order of the sign is not reversed (step T3; No), the corresponding figure portion error determining processing 5 ends. When it is judged that the assumed equation for at least two angles in the congruent figure portion or the similar figure portion is input and it is judged that the order of the sign representing the angles is reversed in the assumed 10 equation (step T3; Yes), the CPU 25 displays on the display 210 an error message (hereinafter referred to as sign order error message M2, see FIG. 6A) notifying the above and a query message M3 regarding whether or not to correct the order. After correcting the order according to the user 15 operation to correct the order (step T4), the corresponding figure portion error determining processing ends. In step T4, when the user does not perform operation to correct the order, the CPU 25 ends the corresponding figure portion error determining processing without correcting the order. 20 When the corresponding figure portion error determining processing ends in step S13, as shown in FIG. 2, next the CPU 25 again detects the corresponding portion of the assumed equation in the user drawn figure, deforms the corresponding portion to match a figure portion obtained by the assumed 25 equation and illustrates the content represented by the assumed equation in the user drawn figure to be displayed with discrimination in the color the same as the assumed equation (here, red) (step S14). Then, the processing AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 13 advances to the above described step Si. In step S14 and the later described steps S24, S34, when the equation is a ratio equation, the CPU 25 deforms the corresponding portion of the ratio equation in the user drawn figure to match a figure 5 portion obtained by the ratio equation and the numeric value of each term of the ratio equation is illustrated in the mark (circle, reverse triangle, etc.) for each ratio equation in the corresponding portion in the user drawn figure. When it is judged that the operation to input the 10 assumed equation is not performed by the user in step Sl (step Sl; No), the CPU 25 judges whether or not the operation to input a proof process equation regarding the educational material figure is performed by the user (step S21). 15 When it is judged that the operation to input the proof process equation is performed by the user in step S21 (step S21; Yes), the CPU 25 displays with discrimination the proof process equation input according to the user operation with a predetermined color (here, blue) in the text area 210b and 20 after detecting the corresponding portion of the proof process equation in the user drawn figure (step S22), the figure portion error determining processing similar to the above described step S13 is performed (step S23). The user in step S22 may input the ratio equation of the figure 25 portion as the proof process equation. The CPU 25 in the corresponding figure error determining processing of step 23 uses the proof process equation instead of the assumed equation. AAQQ-Q 1 (T-TAlTn D -O-n ATT A TAT 91 /A A/ 1 - 14 Then, when the corresponding figure portion error determining processing ends in step S23, next the CPU 25 detects again the corresponding portion of the proof process equation in the user drawn figure, deforms the corresponding 5 portion to match a figure portion obtained by the proof process equation, and illustrates in the user drawn figure the content represented by the proof process equation displayed with discrimination with the same color (here, blue) as the proof process equation (step S24). Then, the 10 processing advances to the above described step Si. When it is judged that the operation to input the proof process equation is not performed by the user in step S21 (step S21; No), the CPU 25 judges whether or not the operation to input a conclusion equation regarding the 15 educational material figure is performed by the user (step S31). In step S31, when it is judged that the operation to input the conclusion equation is performed by the user in step S31 (step S31; Yes), the CPU 25 displays with 20 discrimination the conclusion equation input according to user operation with a predetermined color (here, green) in the text area 210b, and after detecting the corresponding portion of the conclusion equation in the user drawn figure (step S32), the corresponding figure portion error 25 determining processing similar to the above described step S13 is performed (step S33). The user in step S32 can input the ratio equation regarding the portion in the figure as the conclusion equation. The CPU 25 in the corresponding figure AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 15 error determining processing in step S33 uses the conclusion equation instead of the assumed equation. Then, when the corresponding figure portion error determining processing in step S33 ends, next, the CPU 25 5 detects again the corresponding portion of the conclusion equation in the user drawn figure, deforms the corresponding portion to match a figure portion obtained by the conclusion equation, and illustrates in the user drawn figure the content represented by the conclusion equation displayed with 10 discrimination in the same color (here, green) as the conclusion equation (step S34). Then, the processing advances to the above described step Si. When it is judged that the operation to input the conclusion equation is not performed by the user in step S31 15 (step S31; No), the CPU 25 judges whether or not at least one of the assumed equation, the proof process equation and the conclusion equation is input as the ratio equation and whether or not the operation to organize the numeric value in the ratio equation is performed by the user (step S41). 20 When it is judged that the ratio equation is input and the operation to organize the numeric value is performed by the user in step S41 (step S41; Yes), the CPU 25 judges whether or not a plurality of ratio equations are input (step S42) and when it is judged that a plurality is not input 25 (step S42; No), the processing advances to step Sl. When it is judged that a plurality of ratio equations are input in step S42 (step S42; Yes), the CPU 25 judges whether or not it is possible to organize the numeric values AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 16 among the ratio equations, specifically, whether or not the terms representing the portion of the figure is common in at least two ratio equations among the plurality of input ratio equations (step S43). 5 When it is judged that there is no common term representing the portion of the figure in any two ratio equations among the plurality of input ration equations in step S43 (step S43; No), the CPU 25 advances the processing to step Si. 10 When it is judged that there is a common term representing the portion of the figure in at least two ratio equations among the plurality of input ratio equations in step S43 (step S43; Yes), the CPU 25 organizes the numeric value of the term in the ratio according to user operation 15 and after the numeric value of the term in the ratio in the figure area 210a is updated (step S44), the processing advances to step Sl. Here, to organize the numeric value of the term in the ratio is to multiply by integers each numeric value of the term in the ratio equations so that the numeric 20 value of each term in the relating ratio equations become numeric values of a term in a common ratio equation (for example, in a later described FIG. 9B, x, y, z, w of AD:GF:EG:BC=x:y:z:w). Specifically, the numeric value of the term in the ratio of AD is set to 4 according to AD:GF=4:3 in 25 FIG. 9B. Next, the numeric value of the term in the ratio of BC is set to 8 from AD:BC=1:2. Further, the numeric value of the term in the ratio of EG is set to 2 from EG:BC=1:4. The above values are displayed in each corresponding position in AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 17 the figure with the numeric value surrounded by a circle as the value of the common ratio equation (values "4, 3, 2, 8" of the common ratio equation "AD:GF:EG:BC=4:3:2:8"). When it is judged in step S41 that the ratio equation is 5 not input or the operation to organize the numeric value of the term in the ratio equation is not performed by the user (step S41; No), the CPU 25 judges whether or not the operation to execute other processing is performed by the user (step S51). 10 Then, when it is judged that the operation to execute other processing is not performed by the user in step S51 (step S51; No), the CPU 25 advances the processing to step Si. When it is judged that the above operation is performed (step S51; Yes), the processing advances to other processing. 15 [Operation Example] Next, the operation of the display terminal 1 is specifically described with reference to the drawings. The drawings referred in the operation example described below 20 illustrate the characters and the figure portion displayed in red outlined with a solid line and colored white inside. Similarly, the characters and the figure portion displayed in blue are illustrated outlined with a broken line and colored white inside, and the characters and the figure portion 25 displayed in green are illustrated outlined with a solid line and hatched with a diagonal line inside. (Operation Example 1) AAQQ-Q 1 (T-TAlTn D -O-n ATT A TAT 91 /A A/ 1 - 18 First, when the user performs the operation to specify educational material of a proof problem of a figure (step Sl; Yes), as shown in FIG. 4A, the figure area 210a and the text area 210b are formed on the display 210, the educational 5 material display window W is displayed in a nearer side than the above areas and the specified educational material is displayed in the educational material display window W (step S2). Next, when the user performs the operation to draw the 10 figure (step S3; Yes) the user drawn figure drawn according to user operation is displayed in the figure area 210a (step S4). To be accurate, the user drawn figure may be a shape different from the educational material figure in the educational material display window W. 15 Next, when the user performs operation to input the assumed equation (step Sl; Yes), as shown in FIG. 4B, the assumed equation "ZBPA=ZAQC=90 0 (assumed)" input according to user operation is displayed with discrimination in red in the text area 210b (step S12). In the present operation example, 20 when the user inputs the equation, the number of the equation is automatically added to the end of the equation. Then, the corresponding portions "ZBPA", "ZAQC" of the assumed equation "ZBPA=ZAQC=90 0 (assumed)" are detected in the user drawn figure, the corresponding portions are 25 deformed to match a figure portion obtained by the assumed equation, and the content represented by the assumed equation is illustrated in the user drawn figure displayed with discrimination in red. Specifically, a square (right angle AAQQ-Q 1 (T-TAT -1 D -O- ATT A TAT 91 /A A/ 1 - 19 mark) is displayed with discrimination in red in the portion of ZBPA and the portion of ZAQC in the figure and an equal angle mark is added to each square (right angle mark) (step S14). 5 Next, when the user performs the operation to input the assumed equation (step Sl; Yes), as shown in FIG. 5A, the assumed equation "Za=90 0 (assumed)" input according to user operation is displayed with discrimination in red in the text area 210b and the corresponding portion "Z=a" of the assumed 10 equation is detected in the user drawn figure (step S12). Next, it is judged that the corresponding portion of the assumed equation "Za=90 0 (assumed)" does not exist in the user drawn figure (the sign "a" is not defined in the assumed equation) (step Ti; No), and the figure defining error 15 message Ml is displayed on the display 210 and as shown in FIG. 5B, the corresponding portion of the undefined sign "a"f is formed in the user drawn figure according to user operation (step T2). In the operation example, the figure defining error message Ml, the sign order error message M2 20 and the error portion of the equation is displayed with the marker in the same color (for example, yellow). Then, the corresponding portion "/a" of the assumed equation "Za=90 0 (assumed)" is detected again in the user drawn figure, the corresponding portion is deformed to match 25 a figure portion obtained by the assumed equation, and the content represented by the assumed equation is illustrated in the user drawn figure displayed with discrimination in red (see right angle symbol in diagram, step S14). In the AAQQ-Q 1 (T-TAT -1 D -O- ATT A TAT 91 /A A/ 1 - 20 operation example, when "/a" is drawn again in the user drawn figure, it is detected that "/a" and "ZBAC" are the same portion. Therefore, "=ZBAC" is added in the assumed equation "Za=90 0 (assumed) ". 5 Next, when the user performs operation to input the assumed equation (step S11; Yes), the assumed equation "BA=CA (assumed)" input according to user operation is displayed with discrimination in red in the text area 210b (step S12). Then, the corresponding portions "BA", "CA" of the 10 assumed equation "BA=CA (assumed)" are detected in the user drawn figure, the corresponding portions are deformed to match a figure portion obtained by the assumed equation, and the content represented by the assumed equation is illustrated in the user drawn figure displayed with 15 discrimination in red. Specifically, the side BA and the side CA are displayed with discrimination in red and an equal length symbol is displayed (step S14). Next, when the user performs operation to input the proof process equation (step S21; Yes), as shown in FIG. 6A, 20 the proof process equation "/PBA=/CAQ" input according to user operation is displayed with discrimination in blue in the text area 210b and the corresponding portion of the proof process equation is detected in the user drawn figure (step S22). 25 Next, it is judged that the proof process equation regarding the two angles "ZPBA" and "/CAQ" in the similar figure portion (AABP and ACAQ) in the user drawn figure is input and the order of the sign representing theses angles is AAQQ-Q 1 (T-TAT -1 D -O- ATT A TAT 91 /A A/ 1 - 21 reversed in the proof process equation "ZPBA=ZCAQ" (step T3; Yes), and the sign order error message M2 and the query message M3 of whether or not to make a correction are displayed on the display 210. 5 Next, when the user performs the operation to make a correction, as shown in FIG. 6B, the order of the sign of "ZCAQ" is corrected to "/QAC" (step T4). Then, the corresponding portion of the proof process equation "ZPBA=ZQAC" is detected again in the user drawn 10 figure, the corresponding portion is deformed to match a figure portion obtained by the proof process equation, and the content represented by the proof process equation is illustrated in the user drawn figure displayed with discrimination in blue. Specifically, an equal angle symbol 15 is added to the portion of ZPBA and the portion of /QAC in the figure and each equal angle symbol is displayed with discrimination in blue (step S24). Next, when the user performs operation to input the proof process equation (step S21; Yes), the proof process 20 equation "APBA=AQAC" input according to user operation is displayed with discrimination in blue in the text area 210b and the corresponding portion of the proof process equation in the user drawn figure is detected (step S22). Then, the corresponding portions "APBA", "AQAC" of the 25 proof process equation "APBA=AQAC" are detected in the user drawn figure, the corresponding portions are deformed to match a figure portion obtained by the proof process equation, and the content represented by the proof process AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91/AA/ 1 - 22 equation is illustrated in the user drawn figure displayed with discrimination in blue. Specifically, on the inside of APBA and AQAC, a triangle a little smaller showing the triangles are congruent is drawn and displayed with 5 discrimination in blue (step S24). Similarly, when the user performs operation to input the proof process equation (step S21; Yes), as shown in FIG. 7A, the proof process equation "PA=QC", "PB=QA" input according to the user operation are displayed with discrimination in 10 blue in the text area 210b and the corresponding portion of the proof process equation is detected in the user drawn figure (step S22). Then, the corresponding portions of the proof process equations "PA=QC", "PB=QA" are detected in the user drawn 15 figure and the corresponding portions are deformed to match a figure portion obtained by the proof process equation and the content represented by the proof process equation is illustrated in the user drawn figure and displayed with discrimination in blue. Specifically, an equal length symbol 20 A is added to the side PA and the side QC, an equal length symbol - is attached to the side PB and the side QA, and each is displayed with discrimination in blue (step S24). Next, when the user performs operation to input the conclusion equation (step S31; Yes), as shown in FIG. 7B, the 25 conclusion equation "PQ=PB+QC (conclusion)" input according to user operation is displayed with discrimination in green in the text area 210b. Then, the corresponding portion of the conclusion AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 23 equation "PQ=PB+QC (conclusion)" is detected in the user drawn figure, the corresponding portion is deformed to match a figure portion obtained by the conclusion equation, and the content represented by the conclusion equation is illustrated 5 in the user drawn figure displayed with discrimination in green. Specifically, a horizontal striped pattern is drawn with bold lines near the side PQ and a diagonal striped pattern is drawn with bold lines near the side PB and the side QC which correspond to each other, and each is displayed 10 with discrimination in green (step S34). (Operation Example 2) First, when the user performs the operation to specify educational material of a calculation problem of a figure 15 (step Sl; Yes), as shown in FIG. 8A, the figure area 210a and the text area 210b are formed on the display 210, the educational material display window W is displayed in the nearer side than the above areas and the specified educational material is displayed in the educational material 20 display window W (step S2). Next, when the user performs the operation to draw the figure (step S3; Yes), the user drawn figure drawn according to user operation is displayed in the figure area 210a (step S4). 25 Next, when the user performs operation to input the assumed equation (step Sl; Yes), as shown in FIG. 8B, the assumed equations "AD:BC=1:2 (assumed)", "AE:EB=1:3 (assumed)" input according to user operation are displayed AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 24 with discrimination in red in the text area 210b (step S12). In the present operation example, when the user inputs the equation, the number of the equation is automatically converted to "a", "O", etc. and the above is added to the end 5 of the equation. Then, the corresponding portions "AD", "BC", "AE", "EB" of the assumed equations "AD:BC=1:2 (assumed)", "AE:EB=1:3 (assumed)" are detected in the user drawn figure, the corresponding portions are deformed to match a figure portion 10 obtained by the assumed equation, and the content represented by the assumed equation is illustrated in the user drawn figure and displayed with discrimination in red. Specifically, the numeric values "1", "2" of each term are described in the circle mark showing the same ratio equation 15 in the side AD and the side BC corresponding to "AD:BC=1:2" and displayed with discrimination in red. Moreover, the numeric values "1", "3" of each term are described in the square mark showing the same ratio equation in the side AE and the side EB corresponding to "AE:EB=1:3" and displayed 20 with discrimination in red (step S14). Next, when the user performs operation to input the proof process equation (step S21; Yes), as shown in FIG. 9A the proof process equations "AAEG / AABC", "EG:BC=1:4", "ACFG c/ ACDA", "AD:GF=4:3" input according to user operation are 25 displayed with discrimination in blue in the text area 210b and the corresponding portions of the proof process equation are detected in the user drawn figure (step S22). Then, the corresponding portions of the proof process AAQQ-Q 1 (T-TAT -1 D -O- ATT A TAT 91 /A A/ 1 - 25 equations are detected in the user drawn figure, the corresponding portions are deformed to match a figure portion obtained by the proof process equation, and the content represented by the proof process equation is illustrated in 5 the user drawn figure and displayed with discrimination in blue. Specifically, a triangle a little smaller showing the triangles are similar is drawn and displayed with discrimination in blue on the inside of AAEG and AABC corresponding to "AAEG / AABC". The numeric values "1", "4" 10 of each term are described in the triangle mark showing the same ratio equation in the side EG and the side BC corresponding to "EG:BC=1:4" and displayed with discrimination in blue. A triangle a little smaller showing the triangles are similar is drawn and displayed with 15 discrimination in blue on the inside of ACFG and ACDA corresponding to "ACFG / ACDA". The numeric values "4", "3" of each term are described in the upside-down triangle mark showing the same ratio equation in the side AD and the side GF corresponding to "AD:GF=4:3" and displayed with 20 discrimination in blue (step S24). Next, when the user performs operation to organize the numeric value of the ratio equation (step S41; Yes), after it is judged that a plurality of ratio equations are input (step S42; Yes), among the plurality of input ratio equations, it 25 is judged that the terms "AD", "BC" showing the portion in the figure are common between two ratio equations among "AD:BC=1:2 (assumed)", "EG:BC=1:4", "AD:GF=4:3" (step S43; Yes), and the message M4 to confirm whether it is alright to AAQQ-Q 1 (T-TAT -1 D -O- ATT A TAT 91 /A A/ 1 - 26 organize the value of the ratio is displayed. Next, when the user performs the operation to organize the value of the ratio, as shown in FIG. 9B, the numeric value of the ratio in the figure area 210a is updated (step 5 S44). Next, when the user performs the operation to input the conclusion equation (step S31; Yes), as shown in FIG. 9B, the ratio organizing processing is performed so that the value of each side of each related ratio equation becomes a value in a 10 common ratio equation (for example, x, y, z, w of AD:GF:EG:BC=x:y:z:w). Specifically, according to AD:GF=4:3 in the drawing, the numeric value of the ratio of AD is set to 4. Next, the numeric value of the ratio of BC is set to 8 from AD:BC=1:2. The numeric value of the ratio of EG is set 15 to 2 from EG:BC=1:4. The above values are displayed in each corresponding position in the figure with a numeric value surrounded by a circle mark showing the same ratio equation as the value of the common ratio equation (values of "4,3,2,8" of common ratio equation "AD:GF:EG:BC=4:3:2:8"). 20 Then, the conclusion equation "AD:EF=4:5 (conclusion)" input according to user operation is displayed with discrimination in green in the text area 210b. Then, the corresponding portion of the conclusion equation "AD:EF=4:5 (conclusion)" is detected in the user 25 drawn figure, the corresponding portion is deformed to match a figure portion obtained by the conclusion equation and the content represented by the conclusion equation is illustrated in the user drawn figure displayed with discrimination in AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 27 green. Specifically, side AD and side EF are displayed with discrimination in green corresponding to "AD:EF=4:5" (step S24). According to the present embodiment, as shown in steps 5 S14, S24, S34 of FIG. 2 and as shown in FIG. 4A to FIG. 9B, etc., when the equation regarding the figure is input according to user operation, the corresponding portion of the equation is deformed to match a figure portion obtained by the equation and the content represented in the equation is 10 illustrated in the figure displayed with discrimination. Therefore, it is easy to understand the corresponding relation between the displayed figure and the equation input by the user. Therefore, it is possible to enhance the effect of learning compared to conventional methods. 15 As shown in steps T3 to T4 of FIG. 3 and as shown in FIG. 8A, FIG. 8B, etc., when the equation regarding at least two angles in the congruent figure portion or the similar figure portion in the figure is input, it is judged whether or not the order of the sign showing the angles in the 20 equation is reversed. When it is judged that the order is reversed, an error message notifying the above and a query message of whether or not to correct the order is displayed. Since the order is corrected according to the user operation to correct the order, even if the order of the sign is input 25 in the equation incorrectly, it is possible to correct the order with easy operation. As shown in steps Ti to T2 of FIG. 3 and as shown in FIG. 5A, FIG. 5B, etc., when the corresponding portion of the AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 28 equation does not exist in the figure, an error message notifying the above is displayed and the corresponding portion of the equation is formed in the figure according to user operation. Therefore, even if an equation regarding a 5 portion which is not defined in the figure is input, the corresponding portion of the equation can be reliably formed in the figure. As shown in steps S14, S24, S34 of FIG. 2, and as shown in FIG. 8A to FIG. 9B, etc., when the ratio equation 10 regarding the portion of the figure is input, the corresponding portion of the ratio equation in the figure is deformed to match a figure portion obtained by the ratio equation, and the content represented by the ratio equation is illustrated in the figure by adding the mark showing the 15 ratio equation and the numeric value of the ratio of the ratio equation in the corresponding locations. Therefore, it is possible to easily understand the corresponding relation between the displayed figure and the equation input by the user. Consequently, it is possible to enhance the effect of 20 learning compared to conventional methods. As shown in steps S42 to S44 of FIG. 2 and as shown in FIG. 9A, FIG. 9B, etc., when a plurality of ratio equations are input and there are common terms showing the portion of the figure in at least two ratio equations among the 25 plurality of ratio equations, the value of the ratio is organized according to user operation and the corresponding portion of the ratio equation in the figure is deformed to match a figure portion obtained by the ratio equation again AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 29 and the content represented by the ratio equation is illustrated in the figure. Therefore, it is possible to easily grasp the relation among the lines and the relation of the sizes among the angles in the figure. Consequently, it 5 is possible to enhance effect of learning. The detailed configuration and the detailed operation of the elements composing the display terminal 1 of the present embodiment can be suitably modified without leaving the scope of the present invention. 10 For example, the figure display device of the present invention is described as the display terminal 1, however, the product in which the present invention can be applied is not limited to the above. For example, the present invention can be applied to electronic devices in general, such as a 15 scientific calculator, a portable telephone, a personal computer, a PDA (Personal Digital Assistant), a game machine and the like. Moreover, the figure display program 240 of the present invention can be stored in a memory card removable from the display terminal 1, CD, etc. 20 When the ratio equation is input, the present embodiment is described to illustrate the numeric value of the ratio equation in the corresponding portion of each term in the user drawn figure. However, as shown in FIG. 10, for example, the above can be illustrated by aligning a plurality 25 of same length symbols or same angle symbols. Although various exemplary embodiments have been shown and described, the invention is not limited to the embodiments shown. Therefore, the scope of the invention is AAQQ-Q 1 (T-TAT -1 D I O- ATT A TAT 91 /A A/ 1 - 30 intended to be limited solely by the scope of the claims that follow and its equivalents. In the claims which follow and in the preceding description of the invention, except where the context 5 requires otherwise due to express language or necessary implication, the word "comprise" or variations such as "comprises" or "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in 10 various embodiments of the invention. It is to be understood that, if any prior art publication is referred to herein, such reference does not constitute an admission that the publication forms a part of the common general knowledge in the art, in Australia or any other 15 country. 20 AAQQ-Q 1 (T-TAlTn D -O-n ATT A TAT 91 /A A/ 1

Claims (11)

1. A figure display device comprising: a display, and 5 a processing unit adapted for: displaying a figure on the display; inputting an equation regarding the figure according to a user operation; detecting a portion in the figure corresponding to the 10 inputted equation; and displaying with discrimination content in the figure represented by the inputted equation, wherein the inputted equation is a ratio equation of a portion in the figure; and 15 the processing unit is adapted for: detecting a portion in the figure corresponding to the ratio equation; and displaying content represented by the ratio equation in the detected corresponding portion in the figure. 20
2. The figure display device according to claim 1, wherein the inputted equation is an equation showing similar triangles and the processing unit is further configured to display content of the similar triangles represented by the 25 inputted equation with discrimination in each triangle.
3. The figure display device according to claim 1, wherein the processing unit is further configured to: -- Q1-Q 1 { DOOO00 ATT A TA- -- /l7/1 - 32 judge whether a plurality of ratio equations are input and whether there is a common term representing a portion of the figure in at least two ratio equations among the plurality of ratio equations; and 5 organize a value of a ratio to update a display content when the processing unit judges that a plurality of ratio equations are input and that there is a common term representing a portion of the figure in at least two ratio equations among the plurality of ratio equations. 10
4. The figure display device according to claim 1, wherein the processing unit is further configured to: judge whether an identifier in the inputted equation is defined in the displayed figure, and 15 when the identifier is defined in the displayed figure, detect a portion of the displayed figure that corresponds to the identifier, and deform the shape of the figure to match the inputted equation. 20
5. The figure display device according to claim 4, wherein the identifier is a sign showing an angle or a side.
6. The figure display device according to claim 1, wherein the processing unit is further configured to: 25 when the processing unit judges that the identifier in the inputted equation is not defined in the displayed figure, set in the figure a portion of the displayed figure which corresponds to the undefined identifier according to user -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 - 33 operation; and deform the set portion of the displayed figure to match the inputted equation. 5
7. The figure display device according to claim 4, wherein the processing unit is further configured to: when the processing unit judges that the identifier in the inputted equation is defined in the displayed figure, judge whether an order of a sign which is the identifier is 10 reverse, and when the processing unit judges that the sign which is the identifier is reverse, correct the order of the sign which is the identifier. 15
8. The figure display device according to claim 4, wherein the processing unit is further configured to: when the processing unit judges that the order is reverse, display an error message that the order is reverse and a query message of whether to correct the order, and 20 correct the order of the sign which is the identifier according to user operation requesting that the order be corrected.
9. The figure display device according to claim 4, wherein 25 the processing unit is further configured to: when a corresponding portion of the equation does not exist in the figure, display an error message that the corresponding portion of the equation does not exist in the -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 - 34 figure, when the error message that the corresponding portion of the equation does not exist in the figure is displayed, sett in the figure a portion of the displayed figure which 5 corresponds to the undefined identifier according to user operation, and deform the set corresponding portion of the displayed figure to match the inputted equation.
10 10. A figure display method of a computer including a display with a figure display area and an text input area, the method including: displaying a figure on the display; inputting an equation regarding the figure according to 15 a user operation, wherein the inputted equation is a ratio equation of a portion in the figure; detecting a portion in the figure corresponding to the inputted equation; displaying with discrimination content in the figure 20 represented by the inputted equation; detecting a portion in the figure corresponding to the ratio equation; and displaying content represented by the ratio equation in the detected corresponding portion in the figure. 25
11. A computer-readable storage medium having a program stored thereon for controlling a computer including a display section and an input section, wherein the program controls -- Q1QQ 1 {TT 0nDO 0 ATT A TA- -- /l7/1 - 35 the computer to: display a figure on the display; input an equation regarding the figure according to a user operation; 5 detect a portion in the figure corresponding to the inputted equation, wherein the inputted equation is a ratio equation of a portion in the figure; display with discrimination content in the figure represented by the inputted equation; 10 detect a portion in the figure corresponding to the ratio equation; and display content represented by the ratio equation in the detected corresponding portion in the figure. 15 91QQ 1 {{1T-TAl en DOOO9 l ATT A TA- -- /l7/1
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